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Geometro-stochastic locality in quantum spacetime and quantum diffusions

Eduard Prugovečki

Foundations of Physics 21 (1):93-124 (1991)

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The stochastic quantum mechanics approach to the unification of relativity and quantum theory.E. Prugovečki - 1984 - Foundations of Physics 14 (12):1147-1162.details The stochastic phase-space solution of the particle localizability problem in relativistic quantum mechanics is reviewed. It leads to relativistically covariant probability measures that give rise to covariant and conserved probability currents. The resulting particle propagators are used in the formulation of stochastic geometries underlying a concept of quantum spacetime that is operationally based on stochastically extended quantum test particles. The epistemological implications of the intrinsic stochasticity of such quantum spacetime frameworks for microcausality, the EPR paradox, etc., are discussed. Download Export citation Bookmark 3 citations
Atomic physics and human knowledge.Niels Bohr - 1958 - New York,: Wiley.details These articles and speeches by the Nobel Prize-winning physicist date from 1934 to 1958. Rather than expositions on quantum physics, the papers are philosophical in nature, exploring the relevance of atomic physics to many areas of human endeavor. Includes an essay in which Bohr and Einstein discuss quantum and_wave equation theories. 1961 edition. Download Export citation Bookmark 183 citations
Physics in My Generation.Max Born - 1960 - British Journal for the Philosophy of Science 11 (42):157-159.details Download Export citation Bookmark 31 citations
From Being to Becoming.I. Prigogine - 1982 - British Journal for the Philosophy of Science 33 (3):325-329.details Download Export citation Bookmark 144 citations
Fuzzy amplitude densities and stochastic quantum mechanics.Stanley Gudder - 1989 - Foundations of Physics 19 (3):293-317.details Fuzzy amplitude densities are employed to obtain probability distributions for measurements that are not perfectly accurate. The resulting quantum probability theory is motivated by the path integral formalism for quantum mechanics. Measurements that are covariant relative to a symmetry group are considered. It is shown that the theory includes traditional as well as stochastic quantum mechanics. Download Export citation Bookmark 2 citations

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